Farmer was trained as a physicist; he's been referred to as one of the "pioneers of chaos theory" and has also done work in finance.

He writes, about his disappointment at what he learned in physics classes in college:

"And most of physics was still focused on pushing and pulling, on the material properties of the universe rather than on its informational properties. By informational properties, I mean those that relate to order and disorder."

I have the sense that this is still true, although I'm not a physicist; certainly it is true of the physics classes that my physics-major friends took. And there seems to be an analogy in mathematics -- it's becoming more and more possible to predict things about large random structures. (For example, one can say quite a bit about what a random partition of a large integer, or a random set, or any number of other large random structures looks like; in those cases where there aren't proofs, one can still do simulations and see that "yes, they always look the same", at least if you squint.) It seems to be mostly the people with some CS background that are interested in this, because these are the sort of questions that arise naturally in the analysis of algorithms. But there really do seem to be two different ways to look at a lot of these objects -- you can look at individual trees, but what's the point, since you're probably never going to see any particular tree with 1000 leaves. Or you can look at the class of trees... a beautiful object on its own.

"Many of us find this view [that that everything depends on a set of disconnected "cosmic accidents."] implausible. Why would so many different types of order occur? Why would our situation be so special? It seems more plausible to assume that "accidents tend to happen." An individual automobile wreck may seem like a fluke- -in fact, most automobile wrecks may seem like flukes — but on average they add up. "

This is a more dignified way of saying that "shit happens", which is something that people who are planning things forget. It's why large projects always seem to be late and over budget. The planners think they've factored in everything with, say, more than a 5% chance of happening. (In the car analogy, when setting out for their trip they've thought that there might be heavy traffic, or perhaps if it's raining they've considered the possibility of flooding on some flood-prone road.) But there are a zillion things that could happen, and you can't factor all of those in individually. But if there are enough of those rare things, the probability of one occuring will be close to one, or the expected number of them will be quite large. (Nassim Taleb has written about this in the context of financial markets.) Unfortunately, when you're writing the budget you can't put a line for "shit that will happen". This is actually the same idea that I was previously talking about; large systems (like all the cars in a given city) will have fairly stable properties, even when individual cars (that one that just drove by outside my window) don't.

(By the way, the "Second Law" that Farmer is referring to is a reference to the Second Law of Thermodynamics; he's basically saying that order appears out of chaos often enough that this apparent contradiction of the Second Law of Thermodynamics is itself a law.)